A Novel Bioactive Peptide, T14, Selectively Activates mTORC1 Signalling: Therapeutic Implications for Neurodegeneration and Other Rapamycin-Sensitive Applications

Ranglani, Sanskar; Ashton, Anna; Mahfooz, Kashif; Komorowska, Joanna; Graur, Alexandru; Kabbani, Nadine; García-Ratés, Sara; Greenfield, Susan

doi:10.3390/ijms24129961

Cited by 6 publications

(1 citation statement)

References 62 publications

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“…This cleavage product is a bioactive agent, triggering calcium influx and hence promoting cell growth 16 through activation of the mTOR pathway (Figure 3A ): indeed, T14 and mTOR correlate highly in the human brain. 17 …”

Section: The T14 Signaling Pathwaymentioning

confidence: 99%

Evidence for a novel neuronal mechanism driving Alzheimer's disease, upstream of amyloid

Garcia Ratés,

García‐Ayllón,

Falgàs

et al. 2024

Alzheimer's & Dementia

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This perspective offers an alternative to the amyloid hypothesis in the etiology of Alzheimer's disease (AD). We review evidence for a novel signaling mechanism based on a little‐known peptide, T14. T14 could drive neurodegeneration as an aberrantly activated process of plasticity selective to interconnecting subcortical nuclei, the isodendritic core, where cell loss starts at the pre‐symptomatic stages of the disease. Each of these cell groups has the capacity to form T14, which can stimulate production of p‐Tau and β‐amyloid, suggestive of an upstream driver of neurodegeneration. Moreover, results in an animal AD model show that antagonism of T14 with a cyclated variant, NBP14, prevents formation of β‐amyloid, and restores cognitive function to that of wild‐type counterparts. Any diagnostic and/or therapeutic strategy based on T14‐NBP14 awaits validation in clinical trials. However, an understanding of this novel signaling system could bring much‐needed fresh insights into the progression of cell loss underlying AD.Highlights The possible primary mechanism of neurodegeneration upstream of amyloid. Primary involvement of selectively vulnerable subcortical nuclei, isodendritic core. Bioactive peptide T14 trophic in development but toxic in context of mature brain. Potential for early‐stage biomarker to detect Alzheimer's disease. Effective therapeutic halting neurodegeneration, validated already in 5XFAD mice.

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Section: The T14 Signaling Pathwaymentioning

confidence: 99%

Evidence for a novel neuronal mechanism driving Alzheimer's disease, upstream of amyloid

Garcia Ratés,

García‐Ayllón,

Falgàs

et al. 2024

Alzheimer's & Dementia

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A Novel Peptide Driving Neurodegeneration Appears Exclusively Linked to the α7 Nicotinic Acetylcholine Receptor

Ranglani,

Hasan,

Komorowska

et al. 2024

Mol Neurobiol

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T14, a 14mer peptide, is significantly increased in the pre-symptomatic Alzheimer’s disease brain, and growing evidence implies its pivotal role in neurodegeneration. Here, we explore the subsequent intracellular events following binding of T14 to its target α7 nicotinic acetylcholine receptor (nAChR). Specifically, we test how various experimental manipulations of PC12 cells impact T14-induced functional outcomes. Three preparations were compared: (i) undifferentiated vs. NGF-differentiated cells; (ii) cells transfected with an overexpression of the target α7 nAChR vs. wild type cells; (iii) cells transfected with a mutant α7 nAChR containing a mutation in the G protein-binding cluster, vs. cells transfected with an overexpression of the target α7 nAChR, in three functional assays – calcium influx, cell viability, and acetylcholinesterase release. NGF-differentiated PC12 cells were less sensitive than undifferentiated cells to the concentration-dependent T14 treatment, in all the functional assays performed. The overexpression of α7 nAChR in PC12 cells promoted enhanced calcium influx when compared with the wild type PC12 cells. The α7345–348 A mutation effectively abolished the T14-triggered responses across all the readouts observed. The close relationship between T14 and the α7 nAChR was further evidenced in the more physiological preparation of ex vivo rat brain, where T30 increased α7 nAChR mRNA, and finally in human brain post-mortem, where levels of T14 and α7 nAChR exhibited a strong correlation, reflecting the progression of neurodegeneration. Taken together these data would make it hard to account for T14 binding to any other receptor, and thus interception at this binding site would make a very attractive and remarkably specific therapeutic strategy.

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Antagonism of a key peptide 'T14' driving neurodegeneration: Evaluation of a next generation therapeutic

Ranglani,

Hasan,

Mahfooz

et al. 2023

Biomedicine & Pharmacotherapy

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A Novel Bioactive Peptide, T14, Selectively Activates mTORC1 Signalling: Therapeutic Implications for Neurodegeneration and Other Rapamycin-Sensitive Applications

Cited by 6 publications

References 62 publications

Evidence for a novel neuronal mechanism driving Alzheimer's disease, upstream of amyloid

Evidence for a novel neuronal mechanism driving Alzheimer's disease, upstream of amyloid

A Novel Peptide Driving Neurodegeneration Appears Exclusively Linked to the α7 Nicotinic Acetylcholine Receptor

Antagonism of a key peptide 'T14' driving neurodegeneration: Evaluation of a next generation therapeutic

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